SU1646811A1 - Tool - Google Patents

Abstract

The invention relates to machining, namely the abrasive machining of precision holes of small diameters. The aim of the invention is to improve the processing accuracy due to the periodic pulsating change in pressure of the working substance. The tool contains a hollow elastic hermetic shell with an abrasive layer on its outer surface and a working body feeding mechanism using a plunger 4. The cross section of the working part 5 of the tool is made in the form of a regular polygon with smooth transitions at the corners. Before axial insertion of the tool into the hole, the tool diameter is reduced by increasing the pressure of the working substance in the internal closed cavity, and after the tool is inserted, the tool diameter is increased by reducing the pressure of the working substance. 4 il.

Description

The invention relates to the field of machining, namely to abrasive processing of precision holes of small diameters.

The aim of the invention is to increase the accuracy of processing due to periodic pulsating changes in the pressure of the working substance.

On Fig, 1 presents a tool for finishing holes; in FIG. 2 is a section AA in FIG. 1 . in FIG. 3 - the same version of the cross section of the working part; in FIG. 4 - section BB in figure 1.

The tool has a shell 1, a plug 2, a shank 3 and a plunger 4.

The inner cavity of the shell 1 is filled with hydroplast. The plug 2 may be formed by welding or soldering. In the area of the shank 3, the hole in the shell is underestimated before landing with a plunger 4, which excludes leakage of 20 hydroplast. In the working part 5 of the tool, the cross section of the shell 1 is made in the form of a polygon of an ellipse (Fig. 2) or a triangle (Fig. 3) with smooth transitions at the corners. 25

The implementation of the cross section of the shell in the form of an ellipse is most simple by compressing the working part of the shell with two planes of the device, followed by heat treatment in the same device.

As the material for the shell, for example, ZOHGSA steel can be used.

There are no restrictions on the mechanism with respect to the movement of the shell 1 and the plunger 4. In this case (Fig. 1), a screw mechanism for moving the plunger is shown. 40

In the process of processing using the following techniques.

Before the axial entry of the tool into the hole to be machined, the working size of the tool is reduced by increasing the pressure of the working substance (hydroplast) in the inner closed cavity. After entering the tool into the hole, an increase in its diameter 10 is performed by reducing the pressure of the working substance. In the process of processing, a pulsating increase is periodically made — the pressure relief of the working substance in the inner closed cavity.

Preliminary reduction of the diameter of the tool with its subsequent increase after entering the hole provides processing at the optimum interference fit (gap), eliminates the possibility of damage to the hole.

Periodic pulsating increase - depressurization of the working substance in the inner closed cavity - leads to a more active update of the abrasive paste on the grinding surface.

Claims (1)

Claim An abrasive tool comprising a working part made with an internal closed cavity filled with a fluid 30 working fluid and a mechanism for regulating the pressure on the working fluid, characterized in that, in order to increase the accuracy of processing, the cross section of the working part of the tool is made in the form of a polygon with smooth transitions at the corners, and the mechanism for regulating the pressure of the working fluid is made in the form of a plunger placed inside the tool, mounted with the possibility of reciprocating movement. 5-5 Fig. 4